A list of cache providers

Nicolas Fränkel - Oct 31 '21 - - Dev Community

Last week, we described several criteria to look at to choose a cache. This week, it’s time to list Java cache providers based on these criteria.

Java Caching System

JCS is a distributed caching system written in Java. It is intended to speed up applications by providing a means to manage cached data of various dynamic natures. Like any caching system, JCS is most useful for high read, low put applications. Latency times drop sharply and bottlenecks move away from the database in an effectively cached system.

-— https://commons.apache.org/proper/commons-jcs/index.html
Name Java Caching System
Provider The Apache Foundation
Source GitHub
License Apache 2.0
Inception date 2002
Last commit c6b852c
GitHub stars 76
Configuration File-based (cache.ccf)
jcs.default=
jcs.default.cacheattributes=\
    org.apache.commons.jcs3.engine.CompositeCacheAttributes
jcs.default.cacheattributes.MaxObjects=1000
jcs.default.cacheattributes.MemoryCacheName=\
    org.apache.commons.jcs3.engine.memory.lru.LRUMemoryCache
Sample code
var cache =
  JCS.<Long, String>getInstance("cache"); // 1
cache.put(1L, "One");                           // 2
var value = cache.get(1L);                      // 3
System.out.println(value);
JCS.shutdown();                                 // 4
  1. Get access to the cache region
  2. Put
  3. Get
  4. Clean up
Local/distributed Local and distributed
Non-blocking
JCache
Spring Cache
TTL
Eviction strategies LRU
Miscellaneous

The JCS goes beyond simply caching objects in memory. It provides numerous additional features:

  • Memory management
  • Disk overflow (and defragmentation)
  • Thread pool controls
  • Element grouping
  • Minimal dependencies
  • Quick nested categorical removal
  • Data expiration (idle time and max life)
  • Extensible framework
  • Fully configurable runtime parameters
  • Region data separation and configuration
  • Fine grained element configuration options
  • Remote synchronization
  • Remote store recovery
  • Non-blocking "zombie" (balking facade) pattern
  • Lateral distribution of elements via HTTP, TCP, or UDP
  • UDP Discovery of other caches
  • Element event handling
  • Remote server chaining (or clustering) and failover
  • Custom event logging hooks
  • Custom event queue injection
  • Custom object serializer injection
  • Key pattern matching retrieval
  • Network efficient multi-key retrieval

Guava

Guava is a set of core Java libraries from Google that includes new collection types (such as multimap and multiset), immutable collections, a graph library, and utilities for concurrency, I/O, hashing, caching, primitives, strings, and more! It is widely used on most Java projects within Google, and widely used by many other companies as well.

— https://github.com/google/guava
Name Guava
Provider Google
Source GitHub
License Apache 2.0
Inception date 2010
Last commit ba690ba
GitHub stars 42.6k
Configuration Programmatic
var cache = CacheBuilder.newBuilder()
                        .maximumSize(1000)
                        .build()
Sample code
cache.put(1L, "One");               // 1             
var value = cache.getIfPresent(1L); // 2
System.out.println(value);
cache.cleanUp();                    // 3
  1. Put
  2. Get
  3. Clean up
Local/distributed Local
Non-blocking
JCache
Spring Cache
TTL
Eviction strategies
  • FIFO
  • Weight-based eviction: One can assign a weight to each entry, according to a custom algorithm, and set the cache a weight limit. Then, if a new entry would exceed the maximum weight, the "heaviest" entries are removed until the sum of the weights is below the set threshold.
Miscellaneous Guava is a single JAR that provides cache among many other capabilities
A third-party project provides a JCache adapter
The get method accepts a Callable parameter that allows to get a value from the cache or compute it and store it if it’s not found
The API uses soft and weak references in keys and values
Allows you to attach event handlers when entries are evicted

Caffeine

Caffeine is a high performance, near optimal caching library. For more details, see our user’s guide and browse the API docs for the latest release.

— https://github.com/ben-manes/caffeine
Name Caffeine
Provider Ben Manes
Source GitHub
License Apache 2.0
Inception date 2014
Last commit 41abb08
GitHub stars 10.6k
Configuration Programmatic
var cache = Caffeine.newBuilder()
                    .maximumSize(1000)
                    .build()
Sample code
cache.put(1L, "One");                 // 1
var value = cache.getIfPresent(1L);   // 2
System.out.println(value);
cache.cleanUp();                      // 3
  1. Put
  2. Get
  3. Clean up
Local/distributed Local
Non-blocking
var cache = Caffeine.newBuilder()
                    .maximumSize(1000)
                    .<Long, String>buildAsync();        // 1

CompletableFuture future =
    cache.get(1L, k -> expensiveLookup(1L));
  1. Build an asynchronous cache
JCache
Spring Cache
TTL
Eviction strategies
  • FIFO
  • Weight-based eviction: One can assign a weight to each entry, according to a custom algorithm, and set the cache a weight limit. Then, if a new entry would exceed the maximum weight, the "heaviest" entries are removed until the sum of the weights is below the set threshold.
Miscellaneous Caffeine is rewrite of Guava, inspired by its API, but with non-blocking principles at its core.

Ehcache

Ehcache is an open source, standards-based cache that boosts performance, offloads your database, and simplifies scalability. It’s the most widely-used Java-based cache because it’s robust, proven, full-featured, and integrates with other popular libraries and frameworks. Ehcache scales from in-process caching, all the way to mixed in-process/out-of-process deployments with terabyte-sized caches.

-— https://www.ehcache.org/
Name Ehcache
Provider Software AG
Source GitHub
License Apache 2.0
Inception date 2009
Last commit 212c63c
GitHub stars 1.7k
Configuration Programmatic
var cacheManager = CacheManagerBuilder
    .newCacheManagerBuilder()
    .withCache(
        "cache",
        CacheConfigurationBuilder.newCacheConfigurationBuilder(
            Long.class,
            String.class,
            ResourcePoolsBuilder.heap(10)
        )
    ).build();
cacheManager.init();
var cache = cacheManager.getCache(
    "cache", Long.class, String.class
);
Sample code
cache.put(key, value);         // 1 
var value = cache.get(key);         // 2
cacheManager.close();               // 3
  1. Put
  2. Get
  3. Clean up
Local/distributed Local
Non-blocking
JCache
Spring Cache
TTL
Eviction strategies
  • LRU
  • LFU
  • FIFO
  • Pluggable policy: EhCache provides an API to write your own eviction policy
Miscellaneous Ehcache 3.x is a complete rewrite from Ehache 2.x
Terracota is the Enterprise version of Ehcache. It provides distributed capabilities.

Infinispan

Infinispan is an open-source in-memory data grid that offers flexible deployment options and robust capabilities for storing, managing, and processing data. Infinispan provides a key/value data store that can hold all types of data, from Java objects to plain text. Infinispan distributes your data across elastically scalable clusters to guarantee high availability and fault tolerance, whether you use Infinispan as a volatile cache or a persistent data store.

— https://infinispan.org/
Name Infinispan
Provider RedHat
Source GitHub
License Apache 2.0
Inception date 2009
Last commit 3dd18ce
GitHub stars 910
Configuration Programmatic
var cacheManager = new DefaultCacheManager();
cacheManager.defineConfiguration("cache",
    new ConfigurationBuilder().memory().maxSize("1000").build()
);
var cache = cacheManager.<Long, String>getCache("cache");
Sample code
cache.put(1L, "One");               // 1
var value = cache.get(1L);          // 2
System.out.println(value);
cacheManager.close();               // 3
  1. Put
  2. Get
  3. Clean up
Local/distributed Local and distributed
Non-blocking
CompletableFuture<String> future =
    cache.getAsync(1L, k -> expensiveLookup(1L));
JCache
Spring Cache
TTL
Eviction strategies

LFU

Miscellaneous Infinispan is the successor of JBoss Cache
  • Interoperability: access data across multiple protocols and programming languages
  • Resilient and Fault Tolerant Data: ensure data is always available to meet demanding workloads
  • ACID Transactions: guarantee that data is always valid and consistent
  • Clustered Processing: process data in real-time without burdening resources
  • Queries: perform simple, accurate, and fast searches across distributed data sets

Coherence Community Edition

Coherence is scalable, fault-tolerant, cloud-ready, distributed platform for building grid-based applications and reliably storing data. The product is used at scale, for both compute and raw storage, in a vast array of industries such as critical financial trading systems, high performance telecommunication products, and eCommerce applications.

—- https://coherence.community/latest/21.06/docs/
Name Coherence
Provider Oracle
Source GitHub
License Universal Permissive License
Inception date 2001
Last commit 5f0b968
GitHub stars 340
Configuration File-based
<?xml version="1.0"?>
<cache-config>
    <caching-scheme-mapping>
        <cache-mapping>
            <cache-name>cache</cache-name>
            <scheme-name>local</scheme-name>
        </cache-mapping>
    </caching-scheme-mapping>
    <caching-schemes>
        <local-scheme>
            <scheme-name>local</scheme-name>
            <high-units>1000</high-units>
        </local-scheme>
    </caching-schemes>
</cache-config>
Sample code
var cache = CacheFactory.<Long, String>getCache("cache"); // 1
cache.put(1L, "One");        // 2
var value = cache.get(1L);   // 3
System.out.println(value);
cache.close();               // 4
  1. Get a reference to the cache
  2. Put
  3. Get
  4. Clean up
Local/distributed Local and distributed
Non-blocking
var cache = CacheFactory
                .<Long, String>getCache("cache")
                .async();
CompletableFuture future = cache.get(1L);
JCache
Spring Cache
TTL
Eviction strategies
  • MFU and MRU scaled on a logarithmic curve
  • LRU
  • LFU
  • Pluggable policy: EhCache provides an API to write your own eviction policy
Miscellaneous Oracle bought Coherence from Tangsol in 2007

Commercial versions are available:

  • Standard
  • Enterprise
  • Grid
  • Clustering and Data Sharding
  • Scalability and High Avalability
  • Disk-Based Persistence
  • Key-Value Data Store
  • Parallel Queries
  • Efficient Aggregation
  • In-Place Processing
  • Sophisticated Event Model

Ignite

Distributed Database For High-Performance Computing With In-Memory Speed

-- https://ignite.apache.org/
Name Ignite
Provider GridGain
Source GitHub
License Apache 2.0
Inception date ?
Open-Sourced 2014
Last commit 73a687d
GitHub stars 4k
Configuration Programmatic
var cacheCfg = new CacheConfiguration<Long, String>();
cacheCfg.setOnheapCacheEnabled(true);
cacheCfg.setEvictionPolicyFactory(
    () -> new LruEvictionPolicy<>(1000)
);
cacheCfg.setName("cache");
var cfg = new IgniteConfiguration();
cfg.setCacheConfiguration(cacheCfg);
ignite = Ignition.start(cfg);
var cache = ignite.getOrCreateCache("cache");
Code sample
cache.put(1L, "One");             // 1
var value = cache.get(1L);        // 2
System.out.println(value);
ignite.close();                   // 3
  1. Put
  2. Get
  3. Clean up
Non-blocking
IgniteFuture<String> future = cache.getAsync(1L); // 1
  1. Ignite provides its own asynchronous primitives, which are different from the JDK’s
JCache
Spring Cache ✅ (provided by Ignite)
TTL
Eviction strategies
  • LRU
  • FIFO
  • Sorted: Entries are removed in order, so that they need to implement Comparable or you need to configure you own Comparator implementation
Miscellaneous

Core features:

  • Distributed SQL
  • Multi-tier Storage
  • Co-located Compute
  • ACID Transactions
  • Machine Learning
  • Continuous Queries
GridGrain offers an enterprise version of Ignite named GridGain In-Memory Computing Platform

Geode

Apache Geode is a data management platform that provides real-time, consistent access to data-intensive applications throughout widely distributed cloud architectures.

Apache Geode pools memory, CPU, network resources, and optionally local disk across multiple processes to manage application objects and behavior. It uses dynamic replication and data partitioning techniques to implement high availability, improved performance, scalability, and fault tolerance. In addition to being a distributed data container, Apache Geode is an in-memory data management system that provides reliable asynchronous event notifications and guaranteed message delivery.

-- https://github.com/apache/geode
Name Geode
Provider Pivotal
Source GitHub
License Apache 2.0
Inception date 2015
Open-Sourced 2019
Last commit a21df0b
GitHub stars 2k
Configuration File-based and programmatic
var cache = new CacheFactory().create();
var factory = cache.<Long, String>createRegionFactory();
factory.setEvictionAttributes(
    EvictionAttributes.createLRUEntryAttributes(1000)
);
var region = factory.create("cache");
Code sample
region.put(1L, "One");         // 1 
var value = region.get(1L);    // 2
System.out.println(value);
cache.close();                 // 3
  1. Put
  2. Get
  3. Clean up
Non-blocking
JCache
Spring Cache
TTL
Eviction strategies

LRU

Miscellaneous GemStone is the company that initially developed Geode. In 2010, SpringSource acquired GemStone.

[...] main features and key functionality:

  • High Read-and-Write Throughput
  • Low and Predictable Latency
  • High Scalability
  • Continuous Availability
  • Reliable Event Notifications
  • Parallelized Application Behavior on Data Stores
  • Shared-Nothing Disk Persistence
  • Reduced Cost of Ownership
  • Single-Hop Capability for Client/Server
  • Client/Server Security
  • Multisite Data Distribution
  • Continuous Querying
  • Heterogeneous Data Sharing

Hazelcast

I work for Hazelcast at the time of this writing.

Hazelcast is a streaming and memory-first application platform for fast, stateful, data-intensive workloads on-premises, at the edge or as a fully managed cloud service.

—- https://hazelcast.com/
Name Hazelcast
Provider Hazelcast
Source GitHub
License Apache 2.0
Inception date 2008
Last commit de91d6b
GitHub stars 4.6k
Configuration File-based and programmatic
var hazelcast = Hazelcast.newHazelcastInstance();
hazelcast.getConfig()
         .getMapConfig("cache")
         .getEvictionConfig()
         .setSize(1000);
var map = hazelcast.getMap("cache");
Code sample
map.put(1L, "One");               // 1 
var value = map.get(1L);          // 2
System.out.println(value);
hazelcast.shutdown();             // 3
  1. Put
  2. Get
  3. Clean up
Non-blocking
CompletionStage<String> stage = cache.getAsync(1L);
JCache
Spring Cache
TTL
Eviction strategies
  • LRU
  • LFU
  • Pluggable policy: Hazelcast provides an API to write your own eviction policy
Miscellaneous Hazelcast provides an Enterprise edition with additional features
  • Distributed computation, data structures, and events
  • Streaming data processing
  • Connectors to read from/write to systems like Apache Kafka, JMS, JDBC and HDMS
  • Querying with SQL and predicates
  • CP subsystem for distributed coordination use cases
  • JCache implementation
  • Replication of web sessions (filter, Tomcat, Jetty based)
  • Administration and monitoring utilities including Management Center, JMX, metrics and diagnostics

The following Maven project shows a simple key get-put for each cache.

I tried my best to provide accurate objective information. Please let me know in the comments if something is wrong.

To go further:

Originally published at A Java Geek on October 31st, 2021

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .